Tissue characterization using the continuous wavelet transform. I. Decomposition method

Georgiou G.; Cohen F.S.

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Tissue characterization using the continuous wavelet transform. I. Decomposition method

机译：使用连续小波变换进行组织表征。一，分解方法

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In this paper, a novel decomposition of the RF ultrasound signal into its coherent and diffused components is proposed. This decomposition is based on thresholding the energy of the continuous wavelet transform of the RF signal using appropriate wavelets. The two components are modeled separately, and the model parameters are estimated. Previous work (Cohen et al. 1997) required assumptions about the periodicity of the coherent scatterers in the tissue. These assumptions are not necessary in this work. The decomposition algorithm is tested on simulated RF images. The accuracy of the estimated parameters is presented as well as the performance of the algorithm in low coherent-to-diffuse components' energy ratios (SNR).

机译：本文提出了一种将射频超声信号分解为相干和扩散分量的新方法。该分解基于使用适当的小波对RF信号的连续小波变换的能量进行阈值确定。分别对这两个组件建模，并估算模型参数。先前的工作（Cohen等，1997）要求对组织中相干散射体的周期性进行假设。这些假设在这项工作中是不必要的。在模拟的RF图像上测试了分解算法。给出了估计参数的准确性以及该算法在低相干扩散组件的能量比（SNR）下的性能。

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《IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control》 |2001年第2期|p.355-363|共9页
作者
Georgiou G.; Cohen F.S.;
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正文语种 eng
中图分类声学工程;计量学;
关键词
biological tissues; biomedical ultrasonics; medical signal processing; ultrasonic scattering; wavelet transforms; RF ultrasound signal; coherent component; continuous wavelet transform; decomposition method; diffused component; energy ratios; simulated RF images; ti;

机译：生物组织;生物医学超声;医学信号处理;超声散射;小波变换;RF超声信号;相干分量;连续小波变换;分解方法;扩散分量;能量比;模拟RF图像;ti;

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Tissue characterization using the continuous wavelet transform. I. Decomposition method

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